/**
 * MVEL 2.0
 * Copyright (C) 2007 The Codehaus
 * Mike Brock, Dhanji Prasanna, John Graham, Mark Proctor
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.mvel2;

import java.io.Serializable;
import java.lang.reflect.Field;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.lang.reflect.Type;
import java.lang.reflect.TypeVariable;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeSet;

import org.mvel2.ast.Function;
import org.mvel2.ast.LineLabel;
import org.mvel2.ast.Proto;
import org.mvel2.compiler.AbstractParser;
import org.mvel2.compiler.CompiledExpression;
import org.mvel2.compiler.Parser;
import org.mvel2.integration.Interceptor;
import org.mvel2.util.LineMapper;
import org.mvel2.util.MethodStub;
import org.mvel2.util.ReflectionUtil;

/**
 * The <tt>ParserContext</tt> is the main environment object used for sharing state throughout the entire
 * parser/compileShared process.<br/><br/>
 * The <tt>ParserContext</tt> is used to configure the parser/compiler.  For example:
 * <pre><code>
 * ParserContext parserContext = new ParserContext();
 * parserContext.setStrongTyping(true); // turn on strong typing.
 * <p/>
 * Serializable comp = MVEL.compileExpression("foo.bar", parserContext);
 * </code</pre>
 */
public class ParserContext implements Serializable {
  private String sourceFile;

  private int lineCount = 1;
  private int lineOffset;

  private ParserContext parent;
  private ParserConfiguration parserConfiguration;

  private Object evaluationContext;

  private ArrayList<String> indexedInputs;
  private ArrayList<String> indexedLocals;
  private ArrayList<Set<String>> variableVisibility;

  private HashMap<String, Class> variables;
  private Map<String, Class> inputs;

  private transient HashMap<String, Map<String, Type>> typeParameters;
  private transient Type[] lastTypeParameters;
  private HashMap<String, Function> globalFunctions;

  private transient List<ErrorDetail> errorList;

  private transient Map<String, LineMapper.LineLookup> sourceLineLookups;
  private transient Map<String, Set<Integer>> visitedLines;

  private LineLabel lastLineLabel;

  private transient Parser rootParser;
  private transient Map<String, CompiledExpression> compiledExpressionCache;
  private transient Map<String, Class> returnTypeCache;

  private boolean functionContext = false;
  private boolean compiled = false;
  private boolean strictTypeEnforcement = false;
  private boolean strongTyping = false;
  private boolean optimizationMode = false;

  private boolean fatalError = false;
  private boolean retainParserState = false;
  private boolean debugSymbols = false;
  private boolean blockSymbols = false;
  private boolean executableCodeReached = false;
  private boolean indexAllocation = false;
  protected boolean variablesEscape = false;

  public ParserContext() {
    parserConfiguration = new ParserConfiguration();
  }

  public ParserContext(boolean debugSymbols) {
    this();
    this.debugSymbols = debugSymbols;
  }

  public ParserContext(Parser rootParser) {
    this();
    this.rootParser = rootParser;
  }

  public ParserContext(ParserConfiguration parserConfiguration) {
    this.parserConfiguration = parserConfiguration;
  }

  public ParserContext(ParserConfiguration parserConfiguration, Object evaluationContext) {
    this(parserConfiguration);
    this.evaluationContext = evaluationContext;
  }

  public ParserContext(ParserConfiguration parserConfiguration, ParserContext parent, boolean functionContext) {
    this(parserConfiguration);
    this.parent = parent;
    this.functionContext = functionContext;
  }

  public ParserContext(Map<String, Object> imports, Map<String, Interceptor> interceptors, String sourceFile) {
    this.sourceFile = sourceFile;
    this.parserConfiguration = new ParserConfiguration(imports, interceptors);
  }

  public ParserContext createSubcontext() {
    ParserContext ctx = new ParserContext(parserConfiguration);
    ctx.sourceFile = sourceFile;
    ctx.parent = this;

    ctx.addInputs(inputs);
    ctx.addVariables(variables);
    ctx.addIndexedInputs(indexedInputs);
    ctx.addTypeParameters(typeParameters);

    ctx.sourceLineLookups = sourceLineLookups;
    ctx.lastLineLabel = lastLineLabel;
    ctx.variableVisibility = variableVisibility;

    ctx.globalFunctions = globalFunctions;
    ctx.lastTypeParameters = lastTypeParameters;
    ctx.errorList = errorList;
    ctx.rootParser = rootParser;
    ctx.lineCount = lineCount;
    ctx.lineOffset = lineOffset;

    ctx.compiled = compiled;
    ctx.strictTypeEnforcement = strictTypeEnforcement;
    ctx.strongTyping = strongTyping;

    ctx.fatalError = fatalError;
    ctx.retainParserState = retainParserState;
    ctx.debugSymbols = debugSymbols;
    ctx.blockSymbols = blockSymbols;
    ctx.executableCodeReached = executableCodeReached;
    ctx.indexAllocation = indexAllocation;

    return ctx;
  }

  public ParserContext createColoringSubcontext() {
    if (parent == null) {
      throw new RuntimeException("create a subContext first");
    }

    ParserContext ctx = new ParserContext(parserConfiguration) {
      @Override
      public void addVariable(String name, Class type) {
        if ((parent.variables != null && parent.variables.containsKey(name))
            || (parent.inputs != null && parent.inputs.containsKey(name))) {
          this.variablesEscape = true;
        }
        super.addVariable(name, type);
      }

      @Override
      public void addVariable(String name, Class type, boolean failIfNewAssignment) {
        if ((parent.variables != null && parent.variables.containsKey(name))
            || (parent.inputs != null && parent.inputs.containsKey(name))) {
          this.variablesEscape = true;
        }
        super.addVariable(name, type, failIfNewAssignment);
      }

      @Override
      public Class getVarOrInputType(String name) {
        if ((parent.variables != null && parent.variables.containsKey(name))
            || (parent.inputs != null && parent.inputs.containsKey(name))) {
          this.variablesEscape = true;
        }

        return super.getVarOrInputType(name);
      }
    };
    ctx.initializeTables();

    ctx.sourceFile = sourceFile;

    ctx.inputs = inputs;
    ctx.variables = variables;
    ctx.indexedInputs = indexedInputs;
    ctx.typeParameters = typeParameters;

    ctx.sourceLineLookups = sourceLineLookups;
    ctx.lastLineLabel = lastLineLabel;
    ctx.variableVisibility = variableVisibility;

    ctx.globalFunctions = globalFunctions;
    ctx.lastTypeParameters = lastTypeParameters;
    ctx.errorList = errorList;
    ctx.rootParser = rootParser;
    ctx.lineCount = lineCount;
    ctx.lineOffset = lineOffset;

    ctx.compiled = compiled;
    ctx.strictTypeEnforcement = strictTypeEnforcement;
    ctx.strongTyping = strongTyping;

    ctx.fatalError = fatalError;
    ctx.retainParserState = retainParserState;
    ctx.debugSymbols = debugSymbols;
    ctx.blockSymbols = blockSymbols;
    ctx.executableCodeReached = executableCodeReached;
    ctx.indexAllocation = indexAllocation;

    return ctx;
  }

  /**
   * Tests whether or not a variable or input exists in the current parser context.
   *
   * @param name The name of the identifier.
   * @return boolean
   */
  public boolean hasVarOrInput(String name) {
    return (variables != null && variables.containsKey(name))
        || (inputs != null && inputs.containsKey(name));
  }

  /**
   * Return the variable or input type froom the current parser context.  Returns <tt>Object.class</tt> if the
   * type cannot be determined.
   *
   * @param name The name of the identifier
   * @return boolean
   */
  public Class getVarOrInputType(String name) {
    if (variables != null && variables.containsKey(name)) {
      return variables.get(name);
    }
    else if (inputs != null && inputs.containsKey(name)) {
      return inputs.get(name);
    }
    return Object.class;
  }

  public Class getVarOrInputTypeOrNull(String name) {
    if (variables != null && variables.containsKey(name)) {
      return variables.get(name);
    }
    else if (inputs != null && inputs.containsKey(name)) {
      return inputs.get(name);
    }
    return null;
  }

  /**
   * Get total number of lines declared in the current context.
   *
   * @return int of lines
   */
  public int getLineCount() {
    return lineCount;
  }

  /**
   * Set the current number of lines in the current context. (Generally only used by the compiler)
   *
   * @param lineCount The number of lines
   * @return int of lines
   */
  public int setLineCount(int lineCount) {
    return this.lineCount = lineCount;
  }

  /**
   * Increments the current line count by the specified amount
   *
   * @param increment The number of lines to increment
   * @return int of lines
   */
  public int incrementLineCount(int increment) {
    return this.lineCount += increment;
  }

  /**
   * Get the current line offset.  This measures the number of cursor positions back to the beginning of the line.
   *
   * @return int offset
   */
  public int getLineOffset() {
    return lineOffset;
  }

  /**
   * Sets the current line offset. (Generally only used by the compiler)
   *
   * @param lineOffset The offset amount
   */
  public void setLineOffset(int lineOffset) {
    this.lineOffset = lineOffset;
  }

  /**
   * Sets both the current line count and line offset
   *
   * @param lineCount  The line count
   * @param lineOffset The line offset
   */
  public void setLineAndOffset(int lineCount, int lineOffset) {
    //addKnownLine(this.lineCount = lineCount);
    this.lineOffset = lineOffset;
  }

  /**
   * Get an import that has been declared, either in the parsed script or programatically
   *
   * @param name The name identifier for the imported class (ie. "HashMap")
   * @return An instance of <tt>Class</tt> denoting the imported class.
   */
  public Class getImport(String name) {
    return parserConfiguration.getImport(name);
  }

  /**
   * Get a {@link MethodStub} which wraps a static method import.
   *
   * @param name The name identifier
   * @return An instance of {@link MethodStub}
   */
  public MethodStub getStaticImport(String name) {
    return parserConfiguration.getStaticImport(name);
  }

  /**
   * Returns either an instance of <tt>Class</tt> or {@link MethodStub} (whichever matches).
   *
   * @param name The name identifier.
   * @return An instance of <tt>Class</tt> or {@link MethodStub}
   */
  public Object getStaticOrClassImport(String name) {
    return parserConfiguration.getStaticOrClassImport(name);
  }

  /**
   * Adds a package import to a parse session.
   *
   * @param packageName A fully qualified package (eg. <tt>java.util.concurrent</tt>).
   */
  public void addPackageImport(String packageName) {
    parserConfiguration.addPackageImport(packageName);
  }

  /**
   * Tests to see if the specified import exists.
   *
   * @param name A name identifier
   * @return boolean
   */
  public boolean hasImport(String name) {
    return parserConfiguration.hasImport(name);
  }

  public boolean hasProtoImport(String name) {
    Object o = parserConfiguration.getImports().get(name);
    return o != null && o instanceof Proto;
  }

  public Proto getProtoImport(String name) {
    return (Proto) parserConfiguration.getImports().get(name);
  }

  /**
   * Adds an import for the specified <tt>Class</tt>.
   *
   * @param cls The instance of the <tt>Class</tt> which represents the imported class.
   */
  public void addImport(Class cls) {
    addImport(cls.getSimpleName(), cls);
  }

  public void addImport(Proto proto) {
    parserConfiguration.addImport(proto.getName(), proto);

  }

  /**
   * Adds an import for a specified <tt>Class</tt> using an alias.  For example:
   * <pre><code>
   * parserContext.addImport("sys", System.class);
   * </code></pre>
   * ... doing this would allow an MVEL script to be written as such:
   * <pre><code>
   * sys.currentTimeMillis();
   * </code></pre>
   *
   * @param name The alias to use
   * @param cls  The instance of the <tt>Class</tt> which represents the imported class.
   */
  public void addImport(String name, Class cls) {
    parserConfiguration.addImport(name, cls);
    //      addInput(name, cls);
  }

  /**
   * Adds an import for a specified <tt>Method</tt> representing a static method import using an alias. For example:
   * <pre><code>
   * parserContext.addImport("time", MVEL.getStaticMethod(System.class, "currentTimeMillis", new Class[0]));
   * </code></pre>
   * ... doing this allows the <tt>System.currentTimeMillis()</tt> method to be executed in a script simply by writing
   * <tt>time()</tt>.
   *
   * @param name   The alias to use
   * @param method The instance of <tt>Method</tt> which represents the static import.
   */
  public void addImport(String name, Method method) {
    addImport(name, new MethodStub(method));
    //   addInput(name, MethodStub.class);
  }

  /**
   * Adds a static import for the specified {@link MethodStub} with an alias.
   *
   * @param name   The alias to use
   * @param method The instance of <tt>Method</tt> which represents the static import.
   * @see #addImport(String, org.mvel2.util.MethodStub)
   */
  public void addImport(String name, MethodStub method) {
    parserConfiguration.addImport(name, method);
  }

  /**
   * Initializes internal Maps.  Called by the compiler.
   */
  public void initializeTables() {
    if (variables == null) variables = new LinkedHashMap<String, Class>();
    if (inputs == null) inputs = new LinkedHashMap<String, Class>();

    if (variableVisibility == null) {
      pushVariableScope();

      Set<String> scope = getVariableScope();

      scope.addAll(variables.keySet());
      scope.addAll(inputs.keySet());

      scope.addAll( parserConfiguration.getImports().keySet() );

      if (inputs.containsKey("this")) {
        Class<?> ctxType = inputs.get("this");

        for (Field field : ctxType.getFields()) {
          if ((field.getModifiers() & (Modifier.PUBLIC | Modifier.STATIC)) != 0) {
            scope.add(field.getName());
          }
        }

        for (Method m : ctxType.getMethods()) {
          if ((m.getModifiers() & Modifier.PUBLIC) != 0) {
            if (m.getName().startsWith("get")
                || (m.getName().startsWith("is")
                && (m.getReturnType().equals(boolean.class) || m.getReturnType().equals(Boolean.class)))) {
              String propertyName = ReflectionUtil.getPropertyFromAccessor(m.getName());
              scope.add(propertyName);
              propertyName = propertyName.substring(0, 1).toUpperCase() + propertyName.substring(1);
              scope.add(propertyName);
            }
            else {
              scope.add(m.getName());
            }
          }
        }
      }
    }
  }

  public void addVariable(String name, Class type, boolean failIfNewAssignment) {
    initializeTables();
    if (variables.containsKey(name) && failIfNewAssignment)
      throw new RuntimeException("statically-typed variable already defined in scope: " + name);

    if (type == null) type = Object.class;

    variables.put(name, type);
    makeVisible(name);
  }

  public void addVariable(String name, Class type) {
    initializeTables();
    if (variables.containsKey(name) || inputs.containsKey(name)) return;
    if (type == null) type = Object.class;
    variables.put(name, type);
    makeVisible(name);
  }

  public void addVariables(Map<String, Class> variables) {
    if (variables == null) return;
    initializeTables();
    for (Map.Entry<String, Class> entry : variables.entrySet()) {
      addVariable(entry.getKey(), entry.getValue());
    }
  }

  public void addInput(String name, Class type) {
    if (inputs == null) inputs = new LinkedHashMap<String, Class>();
    if (inputs.containsKey(name) || (variables != null && variables.containsKey(name))) return;
    if (type == null) type = Object.class;

    inputs.put(name, type);
  }

  public void addInput(String name, Class type, Class[] typeParameters) {
    if (type == null) type = Object.class;
    addInput(name, type);

    if (this.typeParameters == null) {
      this.typeParameters = new LinkedHashMap<String, Map<String, Type>>();
    }
    if (this.typeParameters.get(name) == null) {
      this.typeParameters.put(name, new LinkedHashMap<String, Type>());
    }

    Map<String, Type> t = this.typeParameters.get(name);

    if (typeParameters.length != type.getTypeParameters().length) {
      throw new RuntimeException("wrong number of type parameters for: " + type.getName());
    }

    TypeVariable[] tvs = type.getTypeParameters();

    for (int i = 0; i < typeParameters.length; i++) {
      t.put(tvs[i].getName(), typeParameters[i]);
    }
  }

  public void addInputs(Map<String, Class> inputs) {
    if (inputs == null) return;
    for (Map.Entry<String, Class> entry : inputs.entrySet()) {
      addInput(entry.getKey(), entry.getValue());
    }
  }

  public void processTables() {
    for (String name : variables.keySet()) {
      inputs.remove(name);
    }
  }

  public Map<String, Class> getInputs() {
    return inputs;
  }

  public void setInputs(Map<String, Class> inputs) {
    this.inputs = inputs;
  }

  public List<ErrorDetail> getErrorList() {
    return errorList == null ? Collections.<ErrorDetail>emptyList() : errorList;
  }

  public void setErrorList(List<ErrorDetail> errorList) {
    this.errorList = errorList;
  }

  public void addError(ErrorDetail errorDetail) {
    if (errorList == null) errorList = new ArrayList<ErrorDetail>();
    else {
      for (ErrorDetail detail : errorList) {
        if (detail.getMessage().equals(errorDetail.getMessage())
            && detail.getColumn() == errorDetail.getColumn()
            && detail.getLineNumber() == errorDetail.getLineNumber()) {
          return;
        }
      }
    }

    if (errorDetail.isCritical()) fatalError = true;
    errorList.add(errorDetail);
  }

  public boolean isFatalError() {
    return fatalError;
  }

  public void setFatalError(boolean fatalError) {
    this.fatalError = fatalError;
  }

  public boolean isStrictTypeEnforcement() {
    return strictTypeEnforcement;
  }

  /**
   * Enables strict type enforcement -
   *
   * @param strictTypeEnforcement -
   */
  public void setStrictTypeEnforcement(boolean strictTypeEnforcement) {
    this.strictTypeEnforcement = strictTypeEnforcement;
  }

  public boolean isStrongTyping() {
    return strongTyping;
  }

  /**
   * Enables strong type enforcement.
   *
   * @param strongTyping -
   */
  public void setStrongTyping(boolean strongTyping) {
    if (this.strongTyping = strongTyping) {
      // implies strict-type enforcement too
      this.strictTypeEnforcement = true;
    }
  }

  public boolean isRetainParserState() {
    return retainParserState;
  }

  public void setRetainParserState(boolean retainParserState) {
    this.retainParserState = retainParserState;
  }

  public Parser getRootParser() {
    return rootParser;
  }

  public void setRootParser(Parser rootParser) {
    this.rootParser = rootParser;
  }

  public String getSourceFile() {
    return sourceFile;
  }

  public void setSourceFile(String sourceFile) {
    if (sourceFile != null)
      this.sourceFile = sourceFile;
  }

  public Map<String, Interceptor> getInterceptors() {
    return this.parserConfiguration.getInterceptors();
  }

  public void setInterceptors(Map<String, Interceptor> interceptors) {
    this.parserConfiguration.setInterceptors(interceptors);
  }

  public Map<String, Object> getImports() {
    return this.parserConfiguration.getImports();
  }

  public void setImports(Map<String, Object> imports) {
    if (imports == null) return;

    Object val;
    for (Map.Entry<String, Object> entry : imports.entrySet()) {
      if ((val = entry.getValue()) instanceof Class) {
        addImport(entry.getKey(), (Class) val);
      }
      else if (val instanceof Method) {
        addImport(entry.getKey(), (Method) val);
      }
      else if (val instanceof MethodStub) {
        addImport(entry.getKey(), (MethodStub) val);
      }
      else {
        throw new RuntimeException("invalid element in imports map: " + entry.getKey() + " (" + val + ")");
      }
    }
  }

  private void initVariableVisibility() {
    if (variableVisibility == null) {
      variableVisibility = new ArrayList<Set<String>>();
    }
  }

  public void pushVariableScope() {
    initVariableVisibility();
    variableVisibility.add(new HashSet<String>());
  }

  public void popVariableScope() {
    if (variableVisibility != null && !variableVisibility.isEmpty()) {
      variableVisibility.remove(variableVisibility.size() - 1);
      setLastTypeParameters(null);
    }
  }

  public void makeVisible(String var) {
    if (variableVisibility == null || variableVisibility.isEmpty()) {
      throw new RuntimeException("no context");
    }
    getVariableScope().add(var);
  }

  public Set<String> getVariableScope() {
    if (variableVisibility == null || variableVisibility.isEmpty()) {
      throw new RuntimeException("no context");
    }

    return variableVisibility.get(variableVisibility.size() - 1);
  }

  public boolean isVariableVisible(String var) {
    if (variableVisibility == null || variableVisibility.isEmpty()) {
      return false;
    }

    if (AbstractParser.LITERALS.containsKey(var) || hasImport(var)) {
      return true;
    }

    int pos = variableVisibility.size() - 1;

    do {
      if (variableVisibility.get(pos).contains(var)) {
        return true;
      }
    }
    while (pos-- != 0);

    return false;
  }

  public HashMap<String, Class> getVariables() {
    return variables;
  }

  public void setVariables(HashMap<String, Class> variables) {
    this.variables = variables;
  }

  public boolean isCompiled() {
    return compiled;
  }

  public void setCompiled(boolean compiled) {
    this.compiled = compiled;
  }

  public boolean isDebugSymbols() {
    return debugSymbols;
  }

  public void setDebugSymbols(boolean debugSymbols) {
    this.debugSymbols = debugSymbols;
  }

  public boolean isLineMapped(String sourceName) {
    return sourceLineLookups != null && sourceLineLookups.containsKey(sourceName);
  }

  public void initLineMapping(String sourceName, char[] expr) {
    if (sourceLineLookups == null) {
      sourceLineLookups = new HashMap<String, LineMapper.LineLookup>();
    }
    sourceLineLookups.put(sourceName, new LineMapper(expr).map());
  }

  public int getLineFor(String sourceName, int cursor) {
    return (sourceLineLookups != null
        && sourceLineLookups.containsKey(sourceName)) ?
        sourceLineLookups.get(sourceName).getLineFromCursor(cursor) : -1;
  }

  public boolean isVisitedLine(String sourceName, int lineNumber) {
    return visitedLines != null
        && visitedLines.containsKey(sourceName)
        && visitedLines.get(sourceName).contains(lineNumber);
  }

  public void visitLine(String sourceName, int lineNumber) {
    if (visitedLines == null) {
      visitedLines = new HashMap<String, Set<Integer>>();
    }

    if (!visitedLines.containsKey(sourceName)) {
      visitedLines.put(sourceName, new TreeSet<Integer>());
    }

    visitedLines.get(sourceName).add(lineNumber);
  }

  public LineLabel getLastLineLabel() {
    return lastLineLabel;
  }

  public LineLabel setLastLineLabel(LineLabel lastLineLabel) {
    return this.lastLineLabel = lastLineLabel;
  }

  public boolean hasImports() {
    return parserConfiguration.hasImports();
  }

  public void declareFunction(Function function) {
    if (globalFunctions == null) globalFunctions = new LinkedHashMap<String, Function>();
    globalFunctions.put(function.getName(), function);
  }

  public Function getFunction(String name) {
    return globalFunctions == null ? null : globalFunctions.get(name);
  }

  public Map getFunctions() {
    return globalFunctions == null ? Collections.emptyMap() : globalFunctions;
  }

  public boolean hasFunction(String name) {
    return globalFunctions != null && globalFunctions.containsKey(name);
  }

  public boolean hasFunction() {
    return globalFunctions != null && globalFunctions.size() != 0;
  }

  public void addTypeParameters(Map<String, Map<String, Type>> typeParameters) {
    if (typeParameters == null) return;
    if (this.typeParameters == null) typeParameters = new HashMap<String, Map<String, Type>>();

    Map iMap;
    for (Map.Entry<String, Map<String, Type>> e : typeParameters.entrySet()) {
      iMap = new HashMap<String, Class>();
      for (Map.Entry<String, Type> ie : e.getValue().entrySet()) {
        iMap.put(ie.getKey(), ie.getValue());
      }
      typeParameters.put(e.getKey(), iMap);
    }

  }

  public Map<String, Type> getTypeParameters(String name) {
    if (typeParameters == null) return null;
    return typeParameters.get(name);
  }

  public Type[] getTypeParametersAsArray(String name) {
    Class c = (variables != null && variables.containsKey(name)) ? variables.get(name) : inputs.get(name);
    if (c == null) return null;

    Type[] tp = c.getTypeParameters();
    Type[] types = new Type[tp.length];

    Map<String, Type> typeVars = getTypeParameters(name);
    if (typeVars == null) {
      return null;
    }

    for (int i = 0; i < tp.length; i++) {
      types[i] = typeVars.get(tp[i].toString());
    }

    return types;
  }

  public boolean isBlockSymbols() {
    return blockSymbols;
  }

  public void setBlockSymbols(boolean blockSymbols) {
    this.blockSymbols = blockSymbols;
  }

  public boolean isVariablesEscape() {
    return variablesEscape;
  }

  public boolean isExecutableCodeReached() {
    return executableCodeReached;
  }

  public void setExecutableCodeReached(boolean executableCodeReached) {
    this.executableCodeReached = executableCodeReached;
  }

  public void optimizationNotify() {
    this.optimizationMode = true;
  }

  public boolean isOptimizerNotified() {
    return optimizationMode;
  }

  private void initIndexedVariables() {
    if (indexedInputs == null) indexedInputs = new ArrayList<String>();
    if (indexedLocals == null) indexedLocals = new ArrayList<String>();
  }

  public ArrayList<String> getIndexedInputs() {
    initIndexedVariables();
    return indexedInputs;
  }

  public void addIndexedInput(String[] variables) {
    initIndexedVariables();
    for (String s : variables) {
      if (!indexedInputs.contains(s))
        indexedInputs.add(s);
    }
  }

  public void addIndexedLocals(String[] variables) {
    initIndexedVariables();
    for (String s : indexedLocals) {
      if (!indexedLocals.contains(s))
        indexedLocals.add(s);
    }
  }

  public void addIndexedLocals(Collection<String> variables) {
    if (variables == null) return;
    initIndexedVariables();
    for (String s : variables) {
      if (!indexedLocals.contains(s))
        indexedLocals.add(s);
    }
  }

  public void addIndexedInput(String variable) {
    initIndexedVariables();
    if (!indexedInputs.contains(variable)) indexedInputs.add(variable);
  }

  public void addIndexedInputs(Collection<String> variables) {
    if (variables == null) return;
    initIndexedVariables();
    for (String s : variables) {
      if (!indexedInputs.contains(s))
        indexedInputs.add(s);
    }
  }

  public int variableIndexOf(String name) {
    if (indexedInputs != null) {
      int idx = indexedInputs.indexOf(name);
      if (idx == -1 && indexedLocals != null) {
        idx = indexedLocals.indexOf(name);
        if (idx != -1) {
          idx += indexedInputs.size();
        }
      }
      return idx;
    }

    return -1;
  }

  public Object getEvaluationContext() {
    return evaluationContext;
  }

  public boolean hasIndexedInputs() {
    return indexedInputs != null && indexedInputs.size() != 0;
  }

  public boolean isIndexAllocation() {
    return indexAllocation;
  }

  public void setIndexAllocation(boolean indexAllocation) {
    this.indexAllocation = indexAllocation;
  }

  public boolean isFunctionContext() {
    return functionContext;
  }

  public ParserConfiguration getParserConfiguration() {
    return parserConfiguration;
  }

  public ClassLoader getClassLoader() {
    return parserConfiguration.getClassLoader();
  }

  public Type[] getLastTypeParameters() {
    return lastTypeParameters;
  }

  public void setLastTypeParameters(Type[] lastTypeParameters) {
    this.lastTypeParameters = lastTypeParameters;
  }

  public boolean isAllowBootstrapBypass() {
    return parserConfiguration.isAllowBootstrapBypass();
  }

  public void setAllowBootstrapBypass(boolean allowBootstrapBypass) {
    parserConfiguration.setAllowBootstrapBypass(allowBootstrapBypass);
  }

  public String[] getIndexedVarNames() {
    if (indexedInputs == null) return new String[0];

    String[] s = new String[indexedInputs.size()];
    indexedInputs.toArray(s);
    return s;
  }

  public Map<String, CompiledExpression> getCompiledExpressionCache() {
    if (compiledExpressionCache == null) {
      compiledExpressionCache = new HashMap<String, CompiledExpression>();
    }
    return compiledExpressionCache;
  }

  public Map<String, Class> getReturnTypeCache() {
    if (returnTypeCache == null) {
      returnTypeCache = new HashMap<String, Class>();
    }
    return returnTypeCache;
  }

  // Introduce some new Fluent API stuff here.

  public static ParserContext create() {
    return new ParserContext();
  }

  public ParserContext stronglyTyped() {
    setStrongTyping(true);
    return this;
  }

  public ParserContext withInput(String name, Class type) {
    addInput(name, type);
    return this;
  }

  public ParserContext withInputs(Map<String, Class> inputs) {
    setInputs(inputs);
    return this;
  }

  public ParserContext withTypeParameters(Map<String, Map<String, Type>> typeParameters) {
    addTypeParameters(typeParameters);
    return this;
  }

  public ParserContext withImport(Class clazz) {
    addImport(clazz);
    return this;
  }

  public ParserContext withIndexedVars(String[] varNames) {
    indexedInputs = new ArrayList<String>();
    Collections.addAll(indexedInputs, varNames);

    return this;
  }
}
